KR102450001B1 - Structure for removal dust of a filter - Google Patents

Abstract

The present invention is to provide a foreign substance removal structure of a filter using various types of water as heat exchange water. The foreign substance removal structure includes: a casing having a supply pipe for supplying water used for heat exchange and a discharge pipe for discharging the supplied water to a heat exchanger; a cylindrical filter built inside the casing to filter out foreign substances contained in the water discharged to the heat exchanger; and a strainer disposed between the casing and the cylindrical filter. The strainer includes a cylindrical through-hole plate having a plurality of through-holes and spiral protrusions disposed on an outer surface of the through-hole plate from top to bottom of the through-hole plate. The present invention filters out foreign substances contained in water used for heat exchange of a heat pump or the like to be used in a cooling and heating system. It is possible to effectively remove foreign substances adhering to the surface of the filter such that the present invention improves the durability of the filter and dramatically extends the filter replacement period.

Description

Structure for removal dust of a filter that uses various types of water as heat exchange water

The present invention relates to a foreign material removal structure of a filter using various types of water as heat exchange water, and more particularly, water (including groundwater, river water, etc.) At this time, it relates to a foreign material removal structure of the filter to filter out foreign substances contained in the water and to shake off foreign substances adhering to the surface of the filter.

In general, in a heating/cooling system using a heat exchange device such as a heat pump, water (including groundwater, river water, etc.) is often used for heat exchange of the heat pump.

At this time, a cylindrical filter is usually used to filter out foreign substances contained in the water, but there is a problem in that the efficiency of the foreign substances contained in the water adhering to the surface of the filter is significantly lowered.

Therefore, in order to remove foreign substances adhering to the surface of the filter, a cleaning method by spraying water under a strong pressure from the inside of the filter in the reverse direction is used.

However, this method of backwashing by spraying foreign substances adhering to the surface of the filter in the reverse direction of the water inflow is a passive method, so it is time to more actively minimize foreign substances adhering to the filter.

[Prior art literature]

1. Republic of Korea Patent No. 10-015707

It is an object of the present invention to filter out large foreign substances such as sand among foreign substances contained in the water before they arrive at the filter, and to clean the filter by backwashing the fine foreign substances adhering to the surface of the filter with strong water pressure to keep the filter clean and efficient. in order to increase it.

According to an embodiment of the present invention for achieving the above object, the foreign matter removal structure of a filter using various types of water as heat exchange water exchanges the supplied water with a supply pipe for supplying water used for heat exchange. A casing having a discharge pipe for discharging to the device, a cylindrical filter built in the casing to filter out foreign substances contained in water discharged to the heat exchange device, and a strainer disposed between the casing and the cylindrical filter Doedoe, The strainer is characterized in that a plurality of through-holes are perforated cylindrical through-hole plate and a spiral protrusion on the outer surface of the through-hole plate is arranged from the top to the bottom of the through-hole plate.

According to an embodiment of the present invention, the water supplied into the casing through the supply pipe is supplied between the inner surface of the casing and the outer surface of the strainer, and the water supplied into the casing is formed so that the supply pipe is biased to the outside of the casing. It is characterized in that it is configured to be sprayed toward the inner surface.

According to an embodiment of the present invention, the water supplied to the inside of the casing through the supply pipe rotates while forming a spiral stream on the inner surface of the casing by the spiral protrusion, and the large foreign material contained in the water by the cyclone principle hits the wall surface. It is characterized in that it flows down and is loaded on the floor and is configured to be discharged through a drain pipe.

According to the effect of the present invention as described above, water is used for heat exchange such as a heat pump for use in a heating and cooling system. It is a very useful invention that can dramatically increase the replacement time of the filter by improving the efficiency and durability by always keeping the filter clean as it can effectively remove the foreign substances in the microscopic size by the backwashing method.

1 is an exploded perspective view showing a foreign material removal structure of a filter using various types of water as heat exchange water according to an embodiment of the present invention;
Figure 2 is a perspective view of the coupled state of Figure 1;
Fig. 3 is a cross-sectional view of Fig. 2;
Fig. 4 is a longitudinal sectional view of Fig. 2;
5 is a cross-sectional view showing the working state of the present invention. (A) is a state viewed from the top down, (B) is a state viewed from the side.
6 is a reference view for showing the washing state of the filter in the present invention.
7 is a cross-sectional view showing another embodiment of the present invention.
Fig. 8 is a cross-sectional view showing the working state of Fig. 7, wherein Fig. A) is a state viewed from the top down, and Fig. (B) is a state viewed from the side.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. The terminology used herein is for the purpose of referring to specific embodiments only, and is not intended to limit the invention. The singular forms used herein also include the plural forms unless the phrases expressly indicate the opposite. The meaning of "comprising," as used herein, specifies a particular characteristic, region, integer, step, operation, element and/or component, and other specific characteristic, region, integer, step, operation, element, component, and/or group. It does not exclude the existence or addition of Although not defined otherwise, all terms including technical and scientific terms used herein have the same meaning as commonly understood by those of ordinary skill in the art to which the present invention belongs. Commonly used terms defined in the dictionary are additionally interpreted as having a meaning consistent with the related technical literature and the presently disclosed content, and unless defined, are not interpreted in an ideal or official meaning.

The embodiments of the present invention described with reference to a perspective view specifically represent ideal embodiments of the present invention. As a result, various modifications of the illustrations are expected, for example, modifications of manufacturing methods and/or specifications. Accordingly, the embodiments are not limited to a specific shape of the illustrated area, and include, for example, a shape modification by manufacturing. For example, regions shown or described as being flat may have characteristics that are generally rough and/or non-linear. Also, portions shown as having sharp angles may be rounded. Accordingly, the regions shown in the drawings are only approximate in nature, and their shapes are not intended to depict the exact shape of the regions, and are not intended to narrow the scope of the present invention.

Hereinafter, preferred embodiments of a structure for removing foreign substances in a filter using various types of water as heat exchange water according to the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing a foreign material removal structure of a filter using various types of water as heat exchange water according to an embodiment of the present invention, FIG. 2 is a perspective view of the combined state of FIG. 1, and FIG. 3 is a cross-sectional view of FIG. 4 is a longitudinal cross-sectional view of FIG. 2, and FIG. 5 is a cross-sectional view for showing the working state of the present invention. is a reference view for showing the washing state of the filter in the present invention, FIG. 7 is a cross-sectional view for showing another embodiment of the present invention, and FIG. 8 is a cross-sectional view for showing the working state of FIG. It is a state viewed from below, and Figure (B) is a state viewed from the side.

First, it should be noted that in the drawings, the same components or parts are denoted by the same reference numerals whenever possible. In addition, in describing the present invention, detailed descriptions of related known functions or configurations will be omitted so as not to obscure the gist of the present invention.

The foreign material removal structure 100 of the filter of the present invention is a supply pipe 111 for supplying water (used to include river water) used for heat exchange and discharging the supplied water to a heat exchange device (not shown). A casing 110 having a discharge pipe 112 for Consists of a strainer 130 disposed between the cylindrical filter 120, the strainer 130 is a cylindrical through-hole plate 131 in which a plurality of through-holes 131a are perforated and a spiral on the outer surface of the through-hole plate 131. The projection 132 of the structure is arranged from the top to the bottom of the through-hole plate (131).

At this time, the supply pipe 111 is formed to be biased on one side of the casing 110 , which causes the centrifugal force to act while the water supplied into the casing 110 through the supply pipe 111 flows along the inner surface of the casing 110 . it is for

In particular, the spiral protrusion 132 formed on the outer surface of the through-hole plate 131 causes the inner surface of the casing 110 to spirally ride while the water whirls around, so that heavy sand contained in the water by the cyclone principle, etc. The same large foreign substances (A) fall to the floor riding on the inner surface of the casing 110 by gravity. At this time, the spiral protrusion 132 is a necessary configuration to maintain the spiral stream for a longer time for the fall of more foreign substances. That is, if the spiral protrusion 132 is not present, the water will quickly fall to the floor due to gravity, thereby reducing the effect of removing foreign substances.

Therefore, in the present invention, only water from which large foreign substances are removed flows into the cylindrical filter 120 located in the center of the through-hole plate 131, so that the clogging of the cylindrical filter 120 by large foreign substances can be minimized.

In order to maximize the above effect, the water supplied into the casing 110 through the supply pipe 111 is preferably supplied between the inner surface of the casing 110 and the outer surface of the strainer 130 .

Due to this, only water from which large foreign substances (A) are removed is introduced through the through hole 131a of the strainer 130 and discharged through the discharge pipe 112 through the cylindrical filter 120 . At this time, the foreign substances A collected on the floor are removed through the drain pipe 113 .

As such, only water from which large foreign substances (A) are removed flows into the cylindrical filter 120, so the amount of foreign substances attached to the outer surface of the cylindrical filter 120 can be minimized, and only fine foreign substances (C) are attached to the cylindrical filter ( It can be easily removed only by backwashing the water spray device 140 vertically installed in the center of the 120).

Preferably, the water spray device 140 is provided with a plurality of spray nozzles 141 to spray the high-pressure washing water (B).

The direction of the spiral protrusion 132 may be formed in the right direction or the left direction, so that the water stream can form a spiral from bottom to top or from top to bottom. At this time, it is preferable that the height of the supply pipe 111 is formed differently depending on the direction of the spiral.

In addition, the present invention should not form the same height of the supply pipe 111 and the discharge pipe (112). This is because it is difficult for the water introduced into the casing 110 by the supply pipe 111 to be directly discharged through the discharge pipe 112 .

In addition, in the present invention, a flange 131 is formed on the upper end of the strainer 130 and is screwed to the lid 110a. At this time, the flange 121 of the cylindrical filter 120 is also screwed to the lid 110a. it is preferable to

As described above, although the present invention has been described by way of limited embodiments, the present invention is not limited thereto, and it is described below with the technical idea of the present invention by those of ordinary skill in the art to which the present invention pertains. Various modifications and variations are possible within the scope of equivalents of the claims to be made.

110: casing
120: cylindrical filter
130: strainer
140: water spray device

Claims (3)

A casing having a supply pipe for supplying water used for heat exchange and a discharge pipe for discharging the supplied water to the heat exchange device, and a cylinder built in the casing to filter out foreign substances contained in the water discharged to the heat exchange device In the foreign matter removal structure of the filter consisting of a filter,
A strainer is disposed between the casing and the cylindrical filter,
The strainer includes a cylindrical through-hole plate in which a plurality of through-holes are perforated,
Consists of a spiral protrusion disposed from the top to the bottom on the outer surface of the through-hole plate,
The supply pipe for supplying water between the inner surface of the casing and the outer surface of the strainer is formed to be biased toward the outside of the casing so as to spray water toward the inner surface of the casing,
The water supplied into the casing through the supply pipe rotates while forming a spiral stream on the inner surface of the casing by the spiral protrusion. A foreign material removal structure of a filter that uses various types of water as heat exchange water, characterized in that it is configured to be discharged through a drain pipe.
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